论文信息 - Gross motion planning for a simple 3D articulated robot arm moving amidst unknown arbitrarily shaped obstacles

Gross motion planning for a simple 3D articulated robot arm moving amidst unknown arbitrarily shaped obstacles

This work continues the approach to sensor-based robot motion planning in an unknown environment first studied in [2,3] and further developed for various configurations of planar robot arms in [4,10]. The main idea of the approach is to reduce the problem to the analysis of simple closed curves on an appropriate two-dimensional (2d) manifold. We extend the same ideas to simple 3d arms with two revolute joints whose endpoints travel along 2d manifolds whereas their bodies operate in a "normal" 3d space. For such an arm, a path planning algorithm is described, its convergence is shown, and an example of the algorithm performance is given.

V. Lumelsky | K. Sun

[1] Vladimir J. Lumelsky. Effect of kinematics on motion planning for planar robot arms moving amidst unknown obstacles , 1987, IEEE J. Robotics Autom..

[2] Tomás Lozano-Pérez,et al. Automatic Planning of Manipulator Transfer Movements , 1981, IEEE Transactions on Systems, Man, and Cybernetics.

[3] S. M. Udupa,et al. Collision Detection and Avoidance in Computer Controlled Manipulators , 1977, IJCAI.

[4] Vladimir J. Lumelsky. Dynamic path planning for a planar articulated robot arm moving amidst unknown obstacles , 1987, Autom..

[5] Bernard Faverjon,et al. Obstacle avoidance using an octree in the configuration space of a manipulator , 1984, ICRA.

[6] Laurent Gouzenes. Collision avoidance for robots in an experimental flexible assembly cell , 1984, ICRA.

[7] V. Lumelsky,et al. Dynamic path planning for a mobile automaton with limited information on the environment , 1986 .